1 files changed, 130 insertions, 810 deletions
diff --git a/js/lib/geom/sub-path.js b/js/lib/geom/sub-path.js
index 765316b1..761391b7 100755
--- a/js/lib/geom/sub-path.js
+++ b/js/lib/geom/sub-path.js
@@ -11,30 +11,6 @@ var GeomObj =       require("js/lib/geom/geom-obj").GeomObj;
 var AnchorPoint =   require("js/lib/geom/anchor-point").AnchorPoint;
 var MaterialsModel = require("js/models/materials-model").MaterialsModel;
-// TODO Those function do not seems to be used. We should remove them
-/*
-function SubpathOffsetPoint(pos, mapPos) {
-    this.Pos = [pos[0],pos[1],pos[2]];
-    this.CurveMapPos = [mapPos[0], mapPos[1], mapPos[2]];
-}
-function SubpathOffsetTriangle(v0, v1, v2) {
-    this.v0 = v0;
-    this.v1 = v1;
-    this.v2 = v2;
-    this.n = [0,0,1]; //replace with the actual cross product later
-}
-function sortNumberAscending(a,b){
-    return a-b;
-}
-function sortNumberDescending(a,b){
-    return b-a;
-}
-function SegmentIntersections(){
-    this.paramArray = [];
-}
-*/
 ///////////////////////////////////////////////////////////////////////
 // Class GLSubpath
 //      representation a sequence of cubic bezier curves.
@@ -45,60 +21,44 @@ var GLSubpath = function GLSubpath() {
    ///////////////////////////////////////////////////
    // Instance variables
    ///////////////////////////////////////////////////
+    // NOTE:
+    //  This class contains functionality to store piecewise cubic bezier paths.
+    //  The coordinates of the paths are always in local, canvas space.
+    //  That is, the Z coordinate can be ignored (for now), and the paths are essentially in 2D.
+    //  All coordinates of the '_Samples' should lie within [0,0] and [width, height],
+    //      where width and height refer to the dimensions of the canvas for this path.
+    //  Whenever the the canvas dimensions change, the coordinates of the anchor points
+    //      and _Samples must be re-computed.
    this._Anchors = [];
    this._BBoxMin = [0, 0, 0];
    this._BBoxMax = [0, 0, 0];
    this._isClosed = false;
-    this._samples = [];                 //polyline representation of this curve in stage world space
+    this._Samples = [];                 //polyline representation of this curve in canvas space
    this._sampleParam = [];             //parametric distance of samples, within [0, N], where N is # of Bezier curves (=# of anchor points if closed, =#anchor pts -1 if open)
-    this._anchorSampleIndex = [];       //index within _samples corresponding to anchor points
+    this._anchorSampleIndex = [];       //index within _Samples corresponding to anchor points
-    this._LocalPoints = [];             //polyline representation of this curve in canvas space
+    //initially set the _dirty bit so we will re-construct _Anchors and _Samples
-    this._LocalBBoxMin = [0,0,0];       //bbox min point of _LocalPoints
-    this._LocalBBoxMax = [0,0,0];       //bbox max point of _LocalPoints
-    this._AnchorLocalCoords = [];       //local coords for all the anchor points , stored as a triplet of 3D vectors (prev, curr, next, in order)
-    this._UnprojectedAnchors = [];
-    //initially set the _dirty bit so we will construct samples
    this._dirty = true;
-    //initially set the local dirty bit so we will construct local coordinates
+    //the top left location of this subpath's canvas in screen space (used to identify cases when location changes)
-    this._isLocalDirty = true;
-    //initially set the local dirty bit for the anchors so we will construct local coordinates
-    this._isAnchorLocalDirty = true;
-    
-    //whether or not to use the canvas drawing to stroke/fill
-    this._useCanvasDrawing = true;
-    //the canvas that will draw this subpath
-    this._canvas = null;
-    
-    //the top left location of this subpath's canvas in screen space
    this._canvasLeft = 0;
    this._canvasTop = 0;
    //stroke information
    this._strokeWidth = 1.0;
    this._strokeColor = [0.4, 0.4, 0.4, 1.0];
-    this._strokeMaterial = null
-    this._strokeStyle = "Solid";
-    this._materialAmbient = [0.2, 0.2, 0.2, 1.0];
-    this._materialDiffuse = [0.4, 0.4, 0.4, 1.0];
-    this._materialSpecular = [0.4, 0.4, 0.4, 1.0];
    this._fillColor = [1.0, 1.0, 1.0, 0.0];
-    this._fillMaterial = null;
    this._DISPLAY_ANCHOR_RADIUS = 5;
    //drawing context
    this._world = null;
+    this._canvas = null; //todo this might be unnecessary (but faster) since we can get it from the world
    //tool that owns this subpath
    this._drawingTool = null;
-    this._planeMat =  Matrix.I(4);
-    this._planeMatInv = Matrix.I(4);
-    this._planeCenter = null;
-    this._dragPlane = null;
    //used to query what the user selected, OR-able for future extensions
    this.SEL_NONE = 0;          //nothing was selected
@@ -110,8 +70,6 @@ var GLSubpath = function GLSubpath() {
    this._selectedAnchorIndex = -1;
    this._SAMPLING_EPSILON = 0.5; //epsilon used for sampling the curve
-    this._DEFAULT_STROKE_WIDTH = 20; //use only if stroke width not specified
-    this._MAX_OFFSET_ANGLE = 10; //max angle (in degrees) between consecutive vectors from curve to offset path
    // (current GeomObj complains if buildBuffers/render is added to GLSubpath prototype)
    //buildBuffers
@@ -121,13 +79,6 @@ var GLSubpath = function GLSubpath() {
        // return; //no need to do anything for now
    };
-    this._offsetLocalCoord = function(deltaW, deltaH){
-        var numPoints = this._LocalPoints.length;
-        for (var i=0;i<numPoints;i++) {
-            this._LocalPoints[i][0]+= deltaW;
-            this._LocalPoints[i][1]+= deltaH;
-        }
-    };
    //render
    //  specify how to render the subpath in Canvas2D
    this.render = function () {
@@ -146,24 +97,12 @@ var GLSubpath = function GLSubpath() {
        if (numAnchors === 0) {
            return; //nothing to do for empty paths
        }
-        var useLocalCoord = true;
        this.createSamples(); //dirty bit checked in this function...will generate a polyline representation
-        //build the coordinates of the samples in 2D (canvas) space (localDirty bit checked in buildLocalCoord
-        this.buildLocalCoord();
        //figure the size of the area we will draw into
        var bboxWidth=0, bboxHeight=0;
-        if (useLocalCoord){
+        bboxWidth = this._BBoxMax[0] - this._BBoxMin[0];
-            bboxWidth = this._LocalBBoxMax[0] - this._LocalBBoxMin[0];
+        bboxHeight = this._BBoxMax[1] - this._BBoxMin[1];
-            bboxHeight = this._LocalBBoxMax[1] - this._LocalBBoxMin[1];
-        }
-        else {
-            var bboxMin = this.getBBoxMin();
-            var bboxMax = this.getBBoxMax();
-            bboxWidth = bboxMax[0] - bboxMin[0];
-            bboxHeight = bboxMax[1] - bboxMin[1];
-        }
        ctx.save();
        ctx.clearRect(0, 0, bboxWidth, bboxHeight);
@@ -204,33 +143,17 @@ var GLSubpath = function GLSubpath() {
        */
-        var numPoints=0, i=0;
        ctx.beginPath();
-        if (!useLocalCoord){
+        var numPoints = this._Samples.length;
-            numPoints = this._samples.length/3;
+        ctx.moveTo(this._Samples[0][0],this._Samples[0][1]);
-            ctx.moveTo(this._samples[0]-bboxMin[0],this._samples[1]-bboxMin[1]);
+        for (var i=0;i<numPoints;i++){
-            for (i=0;i<numPoints;i++){
+            ctx.lineTo(this._Samples[i][0],this._Samples[i][1]);
-                ctx.lineTo(this._samples[3*i]-bboxMin[0],this._samples[3*i + 1]-bboxMin[1]);
-            }
-            if (this._isClosed === true) {
-                ctx.lineTo(this._samples[0]-bboxMin[0],this._samples[1]-bboxMin[1]);
-            }
-            ctx.fill();
-            ctx.stroke();
        }
-        else {
+        if (this._isClosed === true) {
-            //render using the local coords
+            ctx.lineTo(this._Samples[0][0],this._Samples[0][1]);
-            numPoints = this._LocalPoints.length;
-            ctx.moveTo(this._LocalPoints[0][0],this._LocalPoints[0][1]);
-            for (i=0;i<numPoints;i++){
-                ctx.lineTo(this._LocalPoints[i][0],this._LocalPoints[i][1]);
-            }
-            if (this._isClosed === true) {
-                ctx.lineTo(this._LocalPoints[0][0],this._LocalPoints[0][1]);
-            }
-            ctx.fill();
-            ctx.stroke();
        }
+        ctx.fill();
+        ctx.stroke();
        ctx.restore();
    }; //render()
@@ -310,21 +233,21 @@ GLSubpath.prototype = new GeomObj();
 /////////////////////////////////////////////////////////
 // Property Accessors/Setters
 /////////////////////////////////////////////////////////
-GLSubpath.prototype.setCanvas = function (c) {
-    this._canvas = c;
-};
-GLSubpath.prototype.getCanvas = function() {
-    return this._canvas;
-};
 GLSubpath.prototype.setWorld = function (world) {
    this._world = world;
 };

diff --git a/js/lib/geom/sub-path.js b/js/lib/geom/sub-path.js index 765316b1..761391b7 100755 --- a/js/lib/geom/sub-path.js +++ b/js/lib/geom/sub-path.js
@@ -11,30 +11,6 @@ var GeomObj = require("js/lib/geom/geom-obj").GeomObj;
11	var AnchorPoint = require("js/lib/geom/anchor-point").AnchorPoint;	11	var AnchorPoint = require("js/lib/geom/anchor-point").AnchorPoint;
12	var MaterialsModel = require("js/models/materials-model").MaterialsModel;	12	var MaterialsModel = require("js/models/materials-model").MaterialsModel;
13		13
14	// TODO Those function do not seems to be used. We should remove them
15	/*
16	function SubpathOffsetPoint(pos, mapPos) {
17	this.Pos = [pos[0],pos[1],pos[2]];
18	this.CurveMapPos = [mapPos[0], mapPos[1], mapPos[2]];
19	}
20
21	function SubpathOffsetTriangle(v0, v1, v2) {
22	this.v0 = v0;
23	this.v1 = v1;
24	this.v2 = v2;
25	this.n = [0,0,1]; //replace with the actual cross product later
26	}
27
28	function sortNumberAscending(a,b){
29	return a-b;
30	}
31	function sortNumberDescending(a,b){
32	return b-a;
33	}
34	function SegmentIntersections(){
35	this.paramArray = [];
36	}
37	*/
38	///////////////////////////////////////////////////////////////////////	14	///////////////////////////////////////////////////////////////////////
39	// Class GLSubpath	15	// Class GLSubpath
40	// representation a sequence of cubic bezier curves.	16	// representation a sequence of cubic bezier curves.
@@ -45,60 +21,44 @@ var GLSubpath = function GLSubpath() {
45	///////////////////////////////////////////////////	21	///////////////////////////////////////////////////
46	// Instance variables	22	// Instance variables
47	///////////////////////////////////////////////////	23	///////////////////////////////////////////////////
		24
		25	// NOTE:
		26	// This class contains functionality to store piecewise cubic bezier paths.
		27	// The coordinates of the paths are always in local, canvas space.
		28	// That is, the Z coordinate can be ignored (for now), and the paths are essentially in 2D.
		29	// All coordinates of the '_Samples' should lie within [0,0] and [width, height],
		30	// where width and height refer to the dimensions of the canvas for this path.
		31	// Whenever the the canvas dimensions change, the coordinates of the anchor points
		32	// and _Samples must be re-computed.
		33
48	this._Anchors = [];	34	this._Anchors = [];
49	this._BBoxMin = [0, 0, 0];	35	this._BBoxMin = [0, 0, 0];
50	this._BBoxMax = [0, 0, 0];	36	this._BBoxMax = [0, 0, 0];
51	this._isClosed = false;	37	this._isClosed = false;
52		38
53	this._samples = []; //polyline representation of this curve in stage world space	39	this._Samples = []; //polyline representation of this curve in canvas space
54	this._sampleParam = []; //parametric distance of samples, within [0, N], where N is # of Bezier curves (=# of anchor points if closed, =#anchor pts -1 if open)	40	this._sampleParam = []; //parametric distance of samples, within [0, N], where N is # of Bezier curves (=# of anchor points if closed, =#anchor pts -1 if open)
55	this._anchorSampleIndex = []; //index within _samples corresponding to anchor points	41	this._anchorSampleIndex = []; //index within _Samples corresponding to anchor points
56		42
57	this._LocalPoints = []; //polyline representation of this curve in canvas space	43	//initially set the _dirty bit so we will re-construct _Anchors and _Samples
58	this._LocalBBoxMin = [0,0,0]; //bbox min point of _LocalPoints
59	this._LocalBBoxMax = [0,0,0]; //bbox max point of _LocalPoints
60	this._AnchorLocalCoords = []; //local coords for all the anchor points , stored as a triplet of 3D vectors (prev, curr, next, in order)
61	this._UnprojectedAnchors = [];
62
63	//initially set the _dirty bit so we will construct samples
64	this._dirty = true;	44	this._dirty = true;
65		45
66	//initially set the local dirty bit so we will construct local coordinates	46	//the top left location of this subpath's canvas in screen space (used to identify cases when location changes)
67	this._isLocalDirty = true;
68
69	//initially set the local dirty bit for the anchors so we will construct local coordinates
70	this._isAnchorLocalDirty = true;
71
72	//whether or not to use the canvas drawing to stroke/fill
73	this._useCanvasDrawing = true;
74
75	//the canvas that will draw this subpath
76	this._canvas = null;
77
78	//the top left location of this subpath's canvas in screen space
79	this._canvasLeft = 0;	47	this._canvasLeft = 0;
80	this._canvasTop = 0;	48	this._canvasTop = 0;
81		49
82	//stroke information	50	//stroke information
83	this._strokeWidth = 1.0;	51	this._strokeWidth = 1.0;
84	this._strokeColor = [0.4, 0.4, 0.4, 1.0];	52	this._strokeColor = [0.4, 0.4, 0.4, 1.0];
85	this._strokeMaterial = null
86	this._strokeStyle = "Solid";
87	this._materialAmbient = [0.2, 0.2, 0.2, 1.0];
88	this._materialDiffuse = [0.4, 0.4, 0.4, 1.0];
89	this._materialSpecular = [0.4, 0.4, 0.4, 1.0];
90	this._fillColor = [1.0, 1.0, 1.0, 0.0];	53	this._fillColor = [1.0, 1.0, 1.0, 0.0];
91	this._fillMaterial = null;
92	this._DISPLAY_ANCHOR_RADIUS = 5;	54	this._DISPLAY_ANCHOR_RADIUS = 5;
		55
93	//drawing context	56	//drawing context
94	this._world = null;	57	this._world = null;
		58	this._canvas = null; //todo this might be unnecessary (but faster) since we can get it from the world
95		59
96	//tool that owns this subpath	60	//tool that owns this subpath
97	this._drawingTool = null;	61	this._drawingTool = null;
98	this._planeMat = Matrix.I(4);
99	this._planeMatInv = Matrix.I(4);
100	this._planeCenter = null;
101	this._dragPlane = null;
102		62
103	//used to query what the user selected, OR-able for future extensions	63	//used to query what the user selected, OR-able for future extensions
104	this.SEL_NONE = 0; //nothing was selected	64	this.SEL_NONE = 0; //nothing was selected
@@ -110,8 +70,6 @@ var GLSubpath = function GLSubpath() {
110	this._selectedAnchorIndex = -1;	70	this._selectedAnchorIndex = -1;
111		71
112	this._SAMPLING_EPSILON = 0.5; //epsilon used for sampling the curve	72	this._SAMPLING_EPSILON = 0.5; //epsilon used for sampling the curve
113	this._DEFAULT_STROKE_WIDTH = 20; //use only if stroke width not specified
114	this._MAX_OFFSET_ANGLE = 10; //max angle (in degrees) between consecutive vectors from curve to offset path
115		73
116	// (current GeomObj complains if buildBuffers/render is added to GLSubpath prototype)	74	// (current GeomObj complains if buildBuffers/render is added to GLSubpath prototype)
117	//buildBuffers	75	//buildBuffers
@@ -121,13 +79,6 @@ var GLSubpath = function GLSubpath() {
121	// return; //no need to do anything for now	79	// return; //no need to do anything for now
122	};	80	};
123		81
124	this._offsetLocalCoord = function(deltaW, deltaH){
125	var numPoints = this._LocalPoints.length;
126	for (var i=0;i<numPoints;i++) {
127	this._LocalPoints[i][0]+= deltaW;
128	this._LocalPoints[i][1]+= deltaH;
129	}
130	};
131	//render	82	//render
132	// specify how to render the subpath in Canvas2D	83	// specify how to render the subpath in Canvas2D
133	this.render = function () {	84	this.render = function () {
@@ -146,24 +97,12 @@ var GLSubpath = function GLSubpath() {
146	if (numAnchors === 0) {	97	if (numAnchors === 0) {
147	return; //nothing to do for empty paths	98	return; //nothing to do for empty paths
148	}	99	}
149	var useLocalCoord = true;
150	this.createSamples(); //dirty bit checked in this function...will generate a polyline representation	100	this.createSamples(); //dirty bit checked in this function...will generate a polyline representation
151		101
152	//build the coordinates of the samples in 2D (canvas) space (localDirty bit checked in buildLocalCoord
153	this.buildLocalCoord();
154
155	//figure the size of the area we will draw into	102	//figure the size of the area we will draw into
156	var bboxWidth=0, bboxHeight=0;	103	var bboxWidth=0, bboxHeight=0;
157	if (useLocalCoord){	104	bboxWidth = this._BBoxMax[0] - this._BBoxMin[0];
158	bboxWidth = this._LocalBBoxMax[0] - this._LocalBBoxMin[0];	105	bboxHeight = this._BBoxMax[1] - this._BBoxMin[1];
159	bboxHeight = this._LocalBBoxMax[1] - this._LocalBBoxMin[1];
160	}
161	else {
162	var bboxMin = this.getBBoxMin();
163	var bboxMax = this.getBBoxMax();
164	bboxWidth = bboxMax[0] - bboxMin[0];
165	bboxHeight = bboxMax[1] - bboxMin[1];
166	}
167		106
168	ctx.save();	107	ctx.save();
169	ctx.clearRect(0, 0, bboxWidth, bboxHeight);	108	ctx.clearRect(0, 0, bboxWidth, bboxHeight);
@@ -204,33 +143,17 @@ var GLSubpath = function GLSubpath() {
204	*/	143	*/
205		144
206		145
207	var numPoints=0, i=0;
208	ctx.beginPath();	146	ctx.beginPath();
209	if (!useLocalCoord){	147	var numPoints = this._Samples.length;
210	numPoints = this._samples.length/3;	148	ctx.moveTo(this._Samples[0][0],this._Samples[0][1]);
211	ctx.moveTo(this._samples[0]-bboxMin[0],this._samples[1]-bboxMin[1]);	149	for (var i=0;i<numPoints;i++){
212	for (i=0;i<numPoints;i++){	150	ctx.lineTo(this._Samples[i][0],this._Samples[i][1]);
213	ctx.lineTo(this._samples[3i]-bboxMin[0],this._samples[3i + 1]-bboxMin[1]);
214	}
215	if (this._isClosed === true) {
216	ctx.lineTo(this._samples[0]-bboxMin[0],this._samples[1]-bboxMin[1]);
217	}
218	ctx.fill();
219	ctx.stroke();
220	}	151	}
221	else {	152	if (this._isClosed === true) {
222	//render using the local coords	153	ctx.lineTo(this._Samples[0][0],this._Samples[0][1]);
223	numPoints = this._LocalPoints.length;
224	ctx.moveTo(this._LocalPoints[0][0],this._LocalPoints[0][1]);
225	for (i=0;i<numPoints;i++){
226	ctx.lineTo(this._LocalPoints[i][0],this._LocalPoints[i][1]);
227	}
228	if (this._isClosed === true) {
229	ctx.lineTo(this._LocalPoints[0][0],this._LocalPoints[0][1]);
230	}
231	ctx.fill();
232	ctx.stroke();
233	}	154	}
		155	ctx.fill();
		156	ctx.stroke();
234	ctx.restore();	157	ctx.restore();
235	}; //render()	158	}; //render()
236		159
@@ -310,21 +233,21 @@ GLSubpath.prototype = new GeomObj();
310	/////////////////////////////////////////////////////////	233	/////////////////////////////////////////////////////////
311	// Property Accessors/Setters	234	// Property Accessors/Setters
312	/////////////////////////////////////////////////////////	235	/////////////////////////////////////////////////////////
313	GLSubpath.prototype.setCanvas = function (c) {
314	this._canvas = c;
315	};
316	GLSubpath.prototype.getCanvas = function() {
317	return this._canvas;
318	};
319
320	GLSubpath.prototype.setWorld = function (world) {	236	GLSubpath.prototype.setWorld = function (world) {
321	this._world = world;	237	this._world = world;
322	};	238	};